CN210010226U - Tool cleaning and sterilizing device for endoscope chamber - Google Patents
Tool cleaning and sterilizing device for endoscope chamber Download PDFInfo
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- CN210010226U CN210010226U CN201920272360.5U CN201920272360U CN210010226U CN 210010226 U CN210010226 U CN 210010226U CN 201920272360 U CN201920272360 U CN 201920272360U CN 210010226 U CN210010226 U CN 210010226U
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Abstract
The utility model discloses an instrument cleaning and disinfecting device for endoscope room, which comprises a housin, be provided with the workspace cavity in the casing, the left end cavity, the right-hand member cavity, right-hand member cavity department installs first strutting arrangement, left end cavity department installs second strutting arrangement, workspace cavity department installs and washes degassing unit, the top of workspace cavity is equipped with the stock solution chamber, the drawing liquid pump is installed to the stock solution intracavity, be fixed with the supporting plate body on the casing, the top of the vertical through-hole of third is equipped with a set of shower head of fixing on the supporting plate body, each shower head all communicates with the play liquid end of drawing liquid pump, open on the top of casing has the filling opening with stock solution chamber intercommunication. The utility model has the advantages of ingenious, reasonable design, can wash the disinfection and can carry out the turn-over operation to the instrument to the various instruments that are used to the internal mirror to carry out thorough cleaning and disinfection and drying process to the instrument of various irregular shapes, avoid the people to cause secondary pollution for cleaning and disinfection, be worth popularizing and applying.
Description
Technical Field
The utility model relates to a device, in particular to a tool cleaning and disinfecting device for an endoscope room.
Background
The instrument that uses in endoscopic surgery and treatment is many, for example instrument such as endoscope instrument, peritoneoscope, endoscope clamp, these instruments are more troublesome on traditional cleaning and disinfection mode, need the washing of wiping of artifical a bit, and efficiency ratio is lower, causes secondary pollution to the instrument easily moreover, is unfavorable for the cleaning and disinfection of instrument and deposits, need for one kind promptly on the market can carry out cleaning and disinfection and can not cause secondary pollution's device to the various instruments for endoscope of irregular shape.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the defects of the prior art, and provides a tool cleaning and disinfecting equipment for endoscope room, which can conveniently and efficiently clean and disinfect the tool for endoscope room without secondary pollution, thereby satisfying the requirements of thorough, high-efficiency and convenient tool cleaning and disinfecting and avoiding secondary pollution.
The utility model provides a technical scheme that its technical problem adopted: the tool cleaning and disinfecting device for the endoscope chamber comprises a shell, wherein a working area cavity, a left end cavity and a right end cavity are arranged in the shell, a first supporting device is arranged at the right end cavity, a second supporting device is arranged at the left end cavity, and a washing and disinfecting device is arranged at the working area cavity; the first supporting device comprises a first horizontal type electric dividing disc fixed in a right end cavity, a first vertical type electric dividing disc is fixed on a first horizontal type rotary disc of the first horizontal type electric dividing disc, a first cylindrical rod eccentrically arranged is fixed on the first vertical type rotary disc of the first vertical type electric dividing disc, a first supporting plate is fixed on the first cylindrical rod, a circle of first circular baffles which are connected end to end are fixed on the outer side of the top surface of the first supporting plate, a group of first longitudinal through holes are formed in the first supporting plate, and each first longitudinal through hole is located in the first circular baffle; the second supporting device comprises a second horizontal electric dividing disc fixed on the cavity at the left end, an electric lifting rod is fixed on a second horizontal rotary disc of the second horizontal electric dividing disc, a support block is fixed at the top end of a rod body of the electric lifting rod, a second cylindrical rod is rotatably connected onto the support block, a first gear is fixed at the left end of the second cylindrical rod, a first servo speed reducing motor is fixed at the top end of the support block, a second gear meshed with the first gear is fixed on a rotating shaft of the first servo speed reducing motor, a second supporting plate positioned above the first supporting plate is fixed at the right end of the second cylindrical rod, a circle of second ring-shaped baffle plates which are connected together end to end is fixed on the outer side of the bottom surface of the second supporting plate, a group of second longitudinal through holes are formed in the second supporting plate, and the second longitudinal through holes are positioned in the second ring-shaped baffle plates; the washing and disinfecting device comprises a plate body positioned at a working area cavity, a through hole is formed in the plate body, a bearing with a seat is fixed on the plate body, a plate block is arranged below the plate body and positioned above a second supporting plate, a third cylindrical rod is fixed at the center of the plate block, the third cylindrical rod penetrates through the through hole and is installed on the bearing with the seat, a group of bristles are fixed on the bottom surface of the plate block, a group of third longitudinal through holes are formed in the plate block, a longitudinal inserting hole with a non-circular cross section is formed in the top end of the third cylindrical rod, an inserting rod with a non-circular cross section is inserted in the longitudinal inserting hole, the plate body is driven up and down through an air cylinder fixed on the shell, and the inserting rod is driven to rotate through a; the top of workspace cavity is equipped with the stock solution chamber, installs the drawing liquid pump in the stock solution chamber, is fixed with the supporting plate body on the casing, and the top of the vertical through-hole of third is equipped with a set of shower head of fixing on the supporting plate body, and each shower head all communicates with the play liquid end of drawing liquid pump, and open on the top of casing has the filling opening with stock solution chamber intercommunication. The first support device is used for supporting the tool on one side; the second supporting device is used for supporting the surface of the tool which is cleaned and disinfected on one surface in a surface changing manner; the washing and disinfecting device is used for washing and disinfecting tools supported on the first supporting plate and the second supporting plate; the first ring-shaped baffle and the second ring-shaped retainer ring are used for preventing the tool to be brushed from sliding off the first supporting plate and the second supporting plate; the eccentric fixing of the first cylindrical rod on the first vertical turntable has the advantages that when the second supporting plate is pressed on the first supporting plate and used for turning over the surface of the tool, the rotating shaft of the second cylindrical rod only rotates and cannot move, so that when the second cylindrical rod rotates, the first cylindrical rod is driven to rotate in a circular track (as shown in fig. 6), and further when the first cylindrical rod is driven to rotate by the first vertical turntable, the first cylindrical rod rotates in a circular track direction, so that when the second supporting plate drives the first supporting plate to rotate, the tool can be safely and completely turned over and changed in the surface (as shown in fig. 7); the longitudinal insertion holes and the cross sections of the insertion rods are arranged in a non-circular shape, so that the third cylindrical rod can be driven up and down and can also be driven to rotate by the insertion rods, the bristles can be driven up and down and can also be driven to rotate for cleaning tools, and the cross sections of the insertion holes and the insertion rods can be in non-circular shapes such as oval, prismatic and square shapes; the horizontal electric indexing disc and the vertical electric indexing disc are the existing products in the market, and can be products of Shenzhen Wheatstone technology company Limited, Jiaxing sky machinery company Limited and the like; the servo speed reducing motor is an existing product in the market, and products of Zibo mountain dragon well motor company Limited, Tianjin Lijia motor technology company Limited and the like can be selected; the electric lifting rod is an existing product on the market, and can be made from companies such as Zhejiang Hao soil science and technology company, and Kerken electromechanical company, Inc. in Dongguan.
Further perfect, the top of shower head is equipped with sterilamp and the stoving lamp of fixing in workspace cavity department, is fixed with the communicating pipe with workspace cavity intercommunication on the casing, installs the air exhauster on the communicating pipe, and the bottom of workspace cavity is provided with the fluid-discharge tube. The ultraviolet germicidal lamp has the function of killing bacteria sensitive to ultraviolet rays, so that a more thorough germicidal effect is achieved; the drying lamp has the effects that after the tools are thoroughly sterilized by disinfectant and rinsed by clean water, the working area cavity is heated by high temperature generated by the drying lamp, so that water drops on the tools are dried, the tools are conveniently stored, and dirt pollution is avoided; the communicating pipe and the exhaust fan are used for extracting wet steam generated by heating from the working area cavity, so that the tool is kept in a dry state; the drain pipe here functions to enable the waste liquid to be drained to a specified position.
Further perfect, it has the first perforation that is used for second cylinder pole and second backup pad to pass through to open between left end cavity and the workspace cavity, and it has the second perforation that is used for first cylinder pole and first backup pad to pass through to open between right-hand member cavity and the workspace cavity, all installs the fan on left end cavity and the right-hand member cavity, and the inlet scoop of two fans all communicates with the external world. The blower is used for forming air pressure in the left end cavity and the right end cavity and blowing the air pressure outwards, so that disinfectant or cleaning water is prevented from falling into the left end cavity or the right end cavity from the first through hole and the second through hole when a tool is brushed cleanly by using the brush, and further, the influence on components in the first supporting device and the second supporting device is avoided.
Further perfection, the top surface of first backup pad and the bottom surface of second backup pad all are fixed with the salient point of a set of silica gel material. The raised points serve to increase the friction force against the tool so that the tool does not run around when the tool is cleaned with the brush.
Further perfection, and the outer sides of the top surfaces of the plates are fixed with ring-shaped barriers which are connected end to end. The ring-shaped enclosure has the advantages that the disinfection solution or the cleaning solution can be retained on the top surface of the plate, so that more disinfection solution or cleaning solution can flow to the brush hair through the third longitudinal through hole to be used for disinfecting and cleaning tools, and better cleaning and disinfecting efficiency is achieved.
Further perfection, the four corners of the bottom surface of the shell are all fixed with supporting legs. The support feet here serve to increase the stability of the housing.
The improved ultraviolet sterilization lamp is further perfected, a PLC controller and a starting switch are fixed on the shell, and the PLC controller is connected with the starting switch, a first horizontal type electric dividing plate, a first vertical type electric dividing plate, a second horizontal type electric dividing plate, an electric lifting rod, a first servo speed reducing motor, an air cylinder, a second servo speed reducing motor, an infusion pump, an ultraviolet sterilization lamp, a drying lamp, an exhaust fan and a fan through lines. The PLC and the starting switch have the functions of automatically controlling the coordinated operation among all parts, thereby increasing the efficiency and saving more labor for operators; the PLC controller is a general-purpose programmable logic controller on the market, and can be selected from the brands of Mitsubishi PLC, Schneider PLC, Unikon Unitronics, Taida PLC, Panasonic PLC and the like on the market.
The utility model discloses profitable effect is: the utility model has the advantages of design, it is reasonable, utilize first strutting arrangement to be used for carrying out the support of single face to the instrument, utilize the second strutting arrangement to be used for changing the face to the instrument that single face cleaning and disinfecting is good and support, utilize and wash degassing unit, be used for washing the disinfection to the instrument of supporting on first backup pad and second backup pad, and sterilamp can carry out illumination region all standing sterilization to the instrument, utilize the stoving lamp can dry the operation to rinsing clean instrument after cleaning and disinfecting, thereby when taking out the instrument and depositing, be dry state, avoid gluing unclean thing, avoid secondary pollution, be worth popularizing and applying.
Drawings
Fig. 1 is a perspective view of the present invention;
FIG. 2 is a schematic structural view of the present invention;
FIG. 3 is an enlarged view of a portion of the area A of FIG. 2;
FIG. 4 is a view from perspective B of FIG. 2;
FIG. 5 is a view from perspective C of FIG. 2;
FIG. 6 is a schematic diagram of the operation of the present invention for turning over the tool holder;
fig. 7 is a flow chart of the working principle of the present invention.
Description of reference numerals: the device comprises a shell 1, a working area cavity 1-1, a left end cavity 1-2, a right end cavity 1-3, a liquid storage cavity 1-4, a support plate body 1-5, a liquid filling opening 1-6, an opening and closing door 1-7, a first support device 2, a first horizontal electric dividing disc 2-1, a first horizontal rotary disc 2-1a, a first vertical electric dividing disc 2-2, a first vertical rotary disc 2-2a, a first cylindrical rod 2-3, a first support plate 2-4, a first longitudinal through hole 2-4a, a first circular baffle 2-5, a second support device 3, a second horizontal electric dividing disc 3-1, an electric lifting rod 3-2, a rod body 3-2a, a support block 3-3 and a second cylindrical rod 3-4, 3-5 parts of a first gear, 3-6 parts of a first servo reducing motor, 3-7 parts of a second gear, 3-8 parts of a second supporting plate, 3-8a parts of a second longitudinal through hole, 3-9 parts of a second ring-shaped baffle plate, 4-7 parts of a washing and disinfecting device, 4-1 parts of a plate body, 4-1a parts of a through hole, 4-2 parts of a bearing with a seat, 4-3 parts of the plate body, 4-3a parts of a third longitudinal through hole, 4-3b parts of a ring-shaped baffle, 4-4 parts of a third cylindrical rod, 4-4a parts of a longitudinal inserting hole, 4-5 parts of bristles, 4-6 parts of an inserting rod, 4-7 parts of a cylinder, 4-8 parts of a second servo reducing motor, 5 parts of a liquid suction pump, 6 parts of a spray header, 7 parts of an ultraviolet sterilizing lamp, 8 parts of a drying lamp, a communicating pipe 9 parts of, supporting legs 16, a PLC 17, a starting switch 18, liquid 19 and a tool 20.
Detailed Description
The present invention will be further explained with reference to the accompanying drawings:
with reference to the accompanying drawings: the tool cleaning and disinfecting device for the endoscope chamber comprises a shell 1, wherein a working area cavity 1-1, a left end cavity 1-2 and a right end cavity 1-3 are arranged in the shell 1, a first supporting device 2 is arranged at the position of the right end cavity 1-3, a second supporting device 3 is arranged at the position of the left end cavity 1-2, and a washing and disinfecting device 4 is arranged at the position of the working area cavity 1-1; the first supporting device 2 comprises a first horizontal type electric dividing disc 2-1 fixed in a right end cavity 1-3, a first vertical type electric dividing disc 2-2 is fixed on a first horizontal type rotary disc 2-1a of the first horizontal type electric dividing disc 2-1, a first cylindrical rod 2-3 eccentrically arranged is fixed on a first vertical type rotary disc 2-2a of the first vertical type electric dividing disc 2-2, a first supporting plate 2-4 is fixed on the first cylindrical rod 2-3, a circle of first circular baffles 2-5 connected end to end are fixed on the outer side of the top surface of the first supporting plate 2-4, a group of first longitudinal through holes 2-4a are formed in the first supporting plate 2-4, and each first longitudinal through hole 2-4a is positioned in the first circular baffle 2-5; the second supporting device 3 comprises a second horizontal type electric indexing disc 3-1 fixed on the left end cavity 1-2, an electric lifting rod 3-2 is fixed on a second horizontal type rotary disc 3-1a of the second horizontal type electric indexing disc 3-1, a support block 3-3 is fixed at the top end of a rod body 3-2a of the electric lifting rod 3-2, a second cylindrical rod 3-4 is connected on the support block 3-3 in a rotating mode, a first gear 3-5 is fixed at the left end of the second cylindrical rod 3-4, a first servo reducing motor 3-6 is fixed at the top end of the support block 3-3, a second gear 3-7 meshed with the first gear 3-5 is fixed on a rotating shaft of the first servo reducing motor 3-6, a second supporting plate 3-8 positioned above the first supporting plate 2-4 is fixed at the right end of the second cylindrical rod 3-4, a circle of second ring-shaped baffles 3-9 which are connected together end to end are fixed on the outer side of the bottom surface of the second supporting plate 3-8, a group of second longitudinal through holes 3-8a are formed in the second supporting plate 3-8, and each second longitudinal through hole 3-8a is positioned in the second ring-shaped baffle 3-9; the washing and disinfecting device 4 comprises a plate body 4-1 positioned at a working area cavity 1-1, a through hole 4-1a is formed in the plate body 4-1, a bearing 4-2 with a seat is fixed on the plate body 4-1, a plate 4-3 is arranged below the plate body 4-1, the plate 4-3 is positioned above a second supporting plate 3-8, a third cylindrical rod 4-4 is fixed at the center of the plate 4-3, the third cylindrical rod 4-4 penetrates through the through hole 4-1a and is arranged on the bearing 4-2 with the seat, a group of brush hairs 4-5 is fixed on the bottom surface of the plate 4-3, a group of third longitudinal through holes 4-3a is formed in the plate 4-3, a longitudinal inserting hole 4-4a with a non-circular cross section is formed at the top end of the third cylindrical rod 4-4, an inserting rod 4-6 with a non-circular cross section is inserted in the longitudinal inserting hole 4-4a, the plate body 4-1 is driven up and down by a cylinder 4-7 fixed on the shell 1, and the inserting rod 4-6 is driven to rotate by a second servo speed reducing motor 4-8 fixed on the shell 1; a liquid storage cavity 1-4 is arranged above the working area cavity 1-1, a liquid pump 5 is arranged in the liquid storage cavity 1-4, a supporting plate body 1-5 is fixed on the shell 1, a group of spray heads 6 fixed on the supporting plate body 1-5 are arranged above the third longitudinal through hole 4-3a, each spray head 6 is communicated with the liquid outlet end of the liquid pump 5, a liquid filling opening 1-6 communicated with the liquid storage cavity 1-4 is formed in the top end of the shell 1, and an opening and closing door 1-7 positioned in the working area cavity 1-1 is arranged on the shell 1.
An ultraviolet germicidal lamp 7 and a drying lamp 8 fixed at the working area cavity 1-1 are arranged above the spray header 6, a communicating pipe 9 communicated with the working area cavity 1-1 is fixed on the shell 1, an exhaust fan 10 is installed on the communicating pipe 9, and a liquid discharge pipe 11 is arranged at the bottom of the working area cavity 1-1.
A first through hole 12 for the second cylindrical rod 3-4 and the second supporting plate 3-8 to pass through is formed between the left end cavity 1-2 and the working area cavity 1-1, a second through hole 13 for the first cylindrical rod 2-3 and the first supporting plate 2-4 to pass through is formed between the right end cavity 1-3 and the working area cavity 1-1, fans 14 are mounted on the left end cavity 1-2 and the right end cavity 1-3, and air suction ports of the two fans 14 are communicated with the outside.
A group of convex points 15 made of silica gel materials are fixed on the top surface of the first supporting plate 2-4 and the bottom surface of the second supporting plate 3-8.
The outer side of the top surface of the plate 4-3 is fixed with a ring-shaped enclosure 4-3b which is connected together end to end.
Supporting legs 16 are fixed at four corners of the bottom surface of the casing 1.
A PLC (programmable logic controller) 17 and a starting switch 18 are fixed on the shell 1, and the PLC 17 is in line connection with the starting switch 18, a first horizontal electric dividing disc 2-1, a first vertical electric dividing disc 2-2, a second horizontal electric dividing disc 3-1, an electric lifting rod 3-2, a first servo speed reducing motor 3-6, an air cylinder 4-7, a second servo speed reducing motor 4-8, an infusion pump 5, an ultraviolet sterilizing lamp 7, a drying lamp 8, an exhaust fan 10 and a fan 14.
The utility model discloses a theory of operation: firstly, opening the opening and closing door 1-7, then placing tools for irregular endoscope chambers on a first supporting plate 3-8 (as shown in a first graph of figure 7), then closing the opening and closing door 1-7, pressing a starting switch 18, starting a PLC (programmable logic controller) 17, controlling an air cylinder 4-7 to drive bristles 4-5 to move downwards, simultaneously controlling a second servo speed-reducing motor 4-8 to drive an inserting rod 4-6 to rotate, driving a third cylindrical rod 4-4 to rotate and driving bristles 4-5 to rotate and brushing tools 20 placed on the first supporting plate 3-8, and controlling a liquid pump 5 to pump disinfectant in a liquid storage cavity 1-4 into each spray head 6 for spraying by the PLC 17 while brushing the end face of the tool 20 by the bristles 4-5, the sterilizing liquid flows to the brush hair 4-5 through the third longitudinal through hole 4-3a, so that the brush hair 4-5 continuously cleans one end of the tool 20 (as shown in the second drawing of fig. 7), thereby cleaning and sterilizing one end of the tool 20, after one end of the tool 20 is cleaned, the PLC controller 17 controls the cylinder 4-7 to drive the brush hair 4-5 to reset (as shown in the third drawing of fig. 7), then controls the second horizontal type electric index plate 3-1 to rotate and drive the second support plate 3-8 to the working area cavity 1-1 (as shown in the fourth drawing of fig. 7), then controls the electric lifting rod 3-2 to drive the second support plate 3-8 to move downwards to press the tool 20 and stop (as shown in the fifth drawing of fig. 7), then, simultaneously starts the first servo deceleration motor 3-6 and the first vertical type electric index plate 2-2, thereby driving the second supporting plate 3-8 and the first supporting plate 2-4 to rotate 180 degrees simultaneously, further turning over the other end of the tool 20 (as shown in the sixth drawing of fig. 7), then, starting the electric lifting rod 3-2 again to move the second supporting plate 3-8 downwards for a short distance and stop (as shown in the seventh drawing of fig. 7), next, starting the first horizontal type electric dividing disc 2-1 and driving the first vertical type electric dividing disc 2-2 to rotate, thereby rotating the first supporting plate 2-4 back into the right end cavity 1-3 (as shown in the eighth drawing of fig. 7), then, starting the cylinder 4-7, the second servo speed reducing motor 4-8 and the liquid pump 5 again, thereby cleaning the other end of the tool 20 (as shown in the ninth drawing of fig. 7), when the upper end and the lower end of the tool 20 are cleaned, pouring clean water into the liquid storage cavity 1-4, repeating the steps again to clean the tool 20, controlling the cylinder 4-7 to drive the bristles 4-5 to reset, stopping the second servo gear motor 4-8 to drive the bristles 4-5 to rotate, starting the ultraviolet sterilizing lamp 7 and the drying lamp 8, performing final ultraviolet sterilizing treatment and drying treatment on the tool 20 cleaned by the clean water, pumping the dried water vapor away through the exhaust fan 10, and taking out the tool 20 cleaned, sterilized and dried from the working area cavity 1-1 and placing the tool into a specific storage box.
While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.
Claims (7)
1. The utility model provides a tool cleaning and disinfecting device for endoscope room, includes casing (1), characterized by: a working area cavity (1-1), a left end cavity (1-2) and a right end cavity (1-3) are arranged in the shell (1), a first supporting device (2) is installed at the right end cavity (1-3), a second supporting device (3) is installed at the left end cavity (1-2), and a washing and disinfecting device (4) is installed at the working area cavity (1-1);
the first supporting device (2) comprises a first horizontal type electric dividing disc (2-1) fixed in a right end cavity (1-3), a first vertical type electric dividing disc (2-2) is fixed on a first horizontal type rotary disc (2-1a) of the first horizontal type electric dividing disc (2-1), a first cylindrical rod (2-3) which is eccentrically arranged is fixed on the first vertical type rotary disc (2-2a) of the first vertical type electric dividing disc (2-2), a first supporting plate (2-4) is fixed on the first cylindrical rod (2-3), a circle of first circular baffle plates (2-5) which are connected end to end are fixed on the outer side of the top surface of the first supporting plate (2-4), and a group of first longitudinal through holes (2-4a) are formed in the first supporting plate (2-4), each first longitudinal through hole (2-4a) is positioned in the first annular baffle (2-5);
the second supporting device (3) comprises a second horizontal type electric dividing disc (3-1) fixed on the left end cavity (1-2), an electric lifting rod (3-2) is fixed on a second horizontal type rotary disc (3-1a) of the second horizontal type electric dividing disc (3-1), a support block (3-3) is fixed at the top end of a rod body (3-2a) of the electric lifting rod (3-2), a second cylindrical rod (3-4) is connected onto the support block (3-3) in a rotating mode, a first gear (3-5) is fixed at the left end of the second cylindrical rod (3-4), a first servo speed reducing motor (3-6) is fixed at the top end of the support block (3-3), a second gear (3-7) meshed with the first gear (3-5) is fixed on a rotating shaft of the first servo speed reducing motor (3-6), a second supporting plate (3-8) positioned above the first supporting plate (2-4) is fixed at the right end of the second cylindrical rod (3-4), a ring of second ring-shaped baffles (3-9) which are connected together end to end are fixed on the outer side of the bottom surface of the second supporting plate (3-8), a group of second longitudinal through holes (3-8a) are formed in the second supporting plate (3-8), and each second longitudinal through hole (3-8a) is positioned in the second ring-shaped baffle (3-9);
the washing and disinfecting device (4) comprises a plate body (4-1) positioned at a working area cavity (1-1), a through hole (4-1a) is formed in the plate body (4-1), a bearing (4-2) with a seat is fixed on the plate body (4-1), a plate block (4-3) is arranged below the plate body (4-1), the plate block (4-3) is positioned above a second supporting plate (3-8), a third cylindrical rod (4-4) is fixed at the center of the plate block (4-3), the third cylindrical rod (4-4) penetrates through the through hole (4-1a) and is installed on the bearing (4-2) with the seat, a group of brush bristles (4-5) is fixed on the bottom surface of the plate block (4-3), a group of third longitudinal through holes (4-3a) is formed in the plate block (4-3), the top end of the third cylindrical rod (4-4) is provided with a longitudinal inserting hole (4-4a) with a non-circular cross section, an inserting rod (4-6) with a non-circular cross section is inserted in the longitudinal inserting hole (4-4a), the plate body (4-1) is driven up and down by a cylinder (4-7) fixed on the shell (1), and the inserting rod (4-6) is driven to rotate by a second servo speed reduction motor (4-8) fixed on the shell (1);
the liquid storage cavity (1-4) is arranged above the working area cavity (1-1), a liquid pump (5) is installed in the liquid storage cavity (1-4), a supporting plate body (1-5) is fixed on the shell (1), a group of spray heads (6) fixed on the supporting plate body (1-5) are arranged above the third longitudinal through hole (4-3a), each spray head (6) is communicated with a liquid outlet end of the liquid pump (5), and a liquid adding opening (1-6) communicated with the liquid storage cavity (1-4) is formed in the top end of the shell (1).
2. The apparatus for cleaning and disinfecting a tool for an endoscope chamber according to claim 1, wherein: the ultraviolet germicidal lamp (7) and the drying lamp (8) which are fixed at the working area cavity (1-1) are arranged above the spray header (6), the communicating pipe (9) communicated with the working area cavity (1-1) is fixed on the shell (1), an exhaust fan (10) is installed on the communicating pipe (9), and a liquid discharge pipe (11) is arranged at the bottom of the working area cavity (1-1).
3. The endoscope chamber tool washing and disinfecting apparatus according to claim 2, wherein: a first through hole (12) for a second cylindrical rod (3-4) and a second supporting plate (3-8) to pass through is formed between the left end cavity (1-2) and the working area cavity (1-1), a second through hole (13) for the first cylindrical rod (2-3) and the first supporting plate (2-4) to pass through is formed between the right end cavity (1-3) and the working area cavity (1-1), fans (14) are installed on the left end cavity (1-2) and the right end cavity (1-3), and air suction openings of the fans (14) are communicated with the outside.
4. The apparatus for cleaning and disinfecting a tool for an endoscope chamber according to claim 1, wherein: the top surface of the first supporting plate (2-4) and the bottom surface of the second supporting plate (3-8) are both fixed with a group of convex points (15) made of silica gel materials.
5. The apparatus for cleaning and disinfecting a tool for an endoscope chamber according to claim 1, wherein: and ring-shaped enclosing barriers (4-3b) which are connected together end to end are fixed on the outer sides of the top surfaces of the plates (4-3).
6. The apparatus for cleaning and disinfecting a tool for an endoscope chamber according to claim 1, wherein: supporting legs (16) are fixed at four corners of the bottom surface of the shell (1).
7. The apparatus for cleaning and disinfecting a tool for an endoscope chamber according to claim 3, wherein: the automatic vacuum pump is characterized in that a PLC (programmable logic controller) and a starting switch (18) are fixed on the shell (1), and the PLC (17) is connected with the starting switch (18), a first horizontal electric dividing plate (2-1), a first vertical electric dividing plate (2-2), a second horizontal electric dividing plate (3-1), an electric lifting rod (3-2), a first servo speed reducing motor (3-6), an air cylinder (4-7), a second servo speed reducing motor (4-8), a liquid pumping pump (5), an ultraviolet sterilizing lamp (7), a drying lamp (8), an exhaust fan (10) and a fan (14) through lines.
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CN201920272360.5U CN210010226U (en) | 2019-03-04 | 2019-03-04 | Tool cleaning and sterilizing device for endoscope chamber |
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CN201920272360.5U CN210010226U (en) | 2019-03-04 | 2019-03-04 | Tool cleaning and sterilizing device for endoscope chamber |
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CN201920272360.5U Expired - Fee Related CN210010226U (en) | 2019-03-04 | 2019-03-04 | Tool cleaning and sterilizing device for endoscope chamber |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111940383A (en) * | 2020-08-11 | 2020-11-17 | 重庆医药高等专科学校 | Dental machine needle cleaning device |
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2019
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Publication number | Priority date | Publication date | Assignee | Title |
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CN111940383A (en) * | 2020-08-11 | 2020-11-17 | 重庆医药高等专科学校 | Dental machine needle cleaning device |
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